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International Journal of Radiation Biology Volume 71, 1997 - Issue 5
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Research Article

Centric rings, acentric rings and excess acentric fragments based on a random-walk interphase chromosome model

H. WU, M. DURANTE, R. K. SACHS and T. C. YANG Berkeley , California 94720, USA. On leav e from the Department of Physics, University Federico II , Naples, Italy .
Pages 487-496 | Published online: 03 Jul 2009

References

  • BREWEN, J. G. and BROCK, R. D., 1968, The exchange hypothesis and chromosome-type aberrations. Mutation Research, 6, 245–255.
  • BROWN, J. M. and KOVACS, M. S., 1993, Visualization of nonreciprocal chromosome exchanges in irradiated human fibroblasts by fluorescence in situ hybridization. Radiation Research, 136, 71–76.
  • CHEN, A. M., LUCAS, J., HILL, F. S., BRENNER, D. J. and SACHS, R. K., 1996, Proximity effects for chromosome aberra-tions measured by FISH. International Journal of Radiation Biology, 69, 411–420.
  • CORNFORTH, M. N. and BEDFORD, J. S., 1987, A quantitative comparison of potential lethal damage repair and the rejoining of interphase chromosome breaks in low passage normal human fibroblasts. Radiation Research, 111, 385–405.
  • CORNFORTH, M. N. and BEDFORD, J. S., 1993, Ionizing radiation damage and its early development in chromosomes. In: Advances in Radiation Biology. Edited by: J. T. Lett and W. K. Sinclair, Vol. 17 (San Diego: Academic Press), pp. 423–497.
  • CREMER, T., POPP, S., EMMERICH, P., LICHTER, P. and CREMER, C., 1990, Rapid metaphase and interphase detection of radiation-induced chromosome aberrations in human lymphocytes by chromosomal suppression in situ hybridization. cyrometry, 111, 110–118.
  • Dm, M. and EDWARDS, S. F., 1988, The Theory of Polymer Dynamics (Oxford: Oxford University Press).
  • FINNoN, P., LLOYD, D. C. and EDwARDs, A. A., 1995, Fluorescence in situ hybridization detection of chromo-somal aberrations in human lymphocytes: applicability to biological dosimetry. International Journal of Radiation Biology, 68, 429–435.
  • HAHNFELDT, P., HEARST, J. E., BRENNER, D. J., SACHS, R. K. and HLATKY, L., 1993, Polymer models for interphase chromosomes. Proceedings of the National Academy of Science USA, 90, 7854–7858.
  • HAHNFELDT, P., HLATKY, L., BRENNER, D. J. and SACHS, R. K., 1995, Chromosome aberrations produced by radiation: the relationship between excess acentric fragments and dicentrics. Radiation Research, 141, 136–152.
  • HLATKY, L., SACHS, R. K. and HAHNFELDT, P., 1992, The ratio of dicentrics to centric rings produced in human lymphocytes by acute low-LET radiation. Radiation Research, 129, 304–408.
  • HUTCHINSON, F., 1995, Analysis of deletions induced in the genome of mammalian cells by ionizing radiation. Journal of Molecular Biology, 254, 372–380.
  • KELLERER, A. M. and Rossi, H. H., 1978, A generalized formulation of dual radiation action. Radiation Research, 75, 471.
  • KODAMA, Y., NAKANO, M., OHTAKI, K., AWA, A. A. and NAICkMURA, N., 1995, Minimum size of translocated chromosome tips detectable using fluorescence in-situ hybridization. Proceedings of the Tenth International Congress of Radiation Research (Wurzburg: Universitaetsdruckerei H. Sturtz AG), p. 420.
  • KOVACS, M. S., EVANS, J. W., JOHNSTONE, I. M. and BROWN, J. M., 1994, Radiation-induced damage, repair and exchange formation in different chromosomes of human fibroblasts determined by fluorescence in situ hybridization. Radiation Research, 137, 34–43.
  • LEA, D. E., 1955, Actions of Radiation on living Cells, 2nd edition (London: Cambridge University Press).
  • MORTON, N. E. 1991, Parameters of the human genome. Proceedings of the National Academy of Science USA, 88, 7474–7476.
  • MüHusAANN-DIAz, M. C. and BEDFORD, J. S., 1995, Comparison of gamma-ray-induced chromosome ring and inversion frequencies. Radiation Research, 143, 175–180.
  • REVELL, S. H., 1974, The breakage-and-reunion theory and the exchange theory for chromosomal aberrations induced by ionizing radiations: a short history. In: Advances in Radiation Biology. Edited by: J. T. Lett, H. Adler and M. Zelle, Vol. 4 (New York: Academic Press), pp. 367–416.
  • SACHS, R. K., VAN DEN ENG, G., TRASK, B., YOKOTA, H and HEARST, J. E. A., 1995, Random-walk/giant-loop model for interphase chromosomes. Proceedings of the National Academy of Science USA, 92, 2710–2714.
  • SAVAGE, J. R. K., 1976, Classification and relationships of induced chromosomal structural changes. J. Medical Genetics, 13, 103–122.
  • SAVAGE, J. R. K. and SIMPSON, P., 1994, FISH `painting' patterns resulting from complex exchanges, Mutation Research, 312, 51–60.
  • SIMPSON, P. J. and SAVAGE, J. R. K., 1995, Estimating the true frequency of X -ray-induc ed complex chromosome exchanges using fluorescence in situ hybridization. International Journal of Radiation Biology, 67, 37–45.
  • TUCKER, J. D., MORGAN, W. F., AWA, A. A., BAUCHINGER, M., BLAKELY, D., CORNFORTH, M. N., LITTLEFIELD, L. G., NATARAJAN, A. T. and SHASSERRE, C., 1995a, A proposed system for scoring structural aberrations detected by Chromosome painting. Cytogenetic Cell Genetics, 6, 211–221.
  • TUCKER, J. D., LEE, D. A., MooRE, D. H., 1995b, Validation of chromosome painting. II. A detail analysis of aberrations following high doses of ionizing radiation in vitro. International Journal of Radiation Biology, 67, 12–28.
  • VAN DEKKEN, H. D., PINKEL, D., MULLIKIN, J., TRASK, B., VAN DEN ENG, G. and GRAY, J., 1989, Three-dimensional analysis of the organization of human chromosome domains in human and human hamster hybrid interphase nuclei. Journal of Cell Science, 94, 299–306.
  • VAN DEN ENG, G., SACHS, R. K. and TRASK, B., 1992, Estimating genomic distance from DNA sequence location in cell nuclei by a random walk model. Science, 257, 1410–1412.
  • YOKOTA, H., VAN DEN ENG, G., HEARST, J. E., SACHS, R. K. and TRASK, B., 1995, Organization of chromatin in megabase pair-sized loops arranged along a random walk path in the human G0/G1 interphase nucleus. Journal of Cell Biology, 130, 1239–1249.

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